Die button

ABSTRACT

A die button for the punching in and fastening of a fastener element having a piercing section to a planar workpiece, in particular a sheet metal part. The die button includes a jacket. Also included is a die plunger movably arranged in the jacket. Further included is a biasing device for pressing the plunger against the workpiece when the workpiece is supported on the jacket with a pressing force made available by the biasing device and selected such that the die plunger first moves when a slug has been detached from the workpiece by the piercing section of the fastener element.

CROSS-REFERENCE TO RELATED APPLICATION

This patent application is a divisional application of U.S. patentapplication Ser. No. 14/470,372, filed on Aug. 27, 2014, which claimspriority to German Patent Application No. DE102013217213.3, filed onAug. 28, 2013, the disclosures of which are incorporated herein byreference in their entireties.

BACKGROUND

The present invention relates to a die button associated with a methodfor the punching in and attachment of a fastener element to a planarworkpiece, in particular to a sheet metal part.

During the punching in of the fastener element into a workpiece theproblem frequently arises that swarf is generated by the punchingprocess and disadvantageously affects the reliability of the attachmentof the element. The swarf is often jammed between a rivet section, whichis beaded over during or after the actual punching in of the fastenerelement for its attachment to the workpiece, and the workpiece. In somecases, the swarf also remains lying in a die button which is used forthe punching in and the beading over of the rivet section. The swarf isthen lifted with the punched in fastener element secured to theworkpiece out of the die button and subsequently migrates as a foreignbody through the tooling and can lead to ugly impressions in thefinished component assembly in the further course of the manufacture ofa component.

It is thus an object of the present invention to provide a method of theinitially named kind in which the creation of swarf is avoided.

The solution of this object takes place by a method having the featuresof claim 1.

In accordance with the invention a movably arranged die plunger of thedie button is pressed with a predetermined pressing force against theworkpiece during the punching in of the fastener element into theworkpiece. The pressing force is adapted during this in such a way thatthe die plunger first moves when a slug has been cut out of theworkpiece by a piercing section of the fastener element.

It has namely been recognized by the inventors that, in a customarypunching in process, the piercing and rivet section of the fastenerelement first creates a depression in the workpiece which projects intothe die button. In this connection the workpiece is strongly stretchedat the side opposite to the piercing and rivet section. A crack arisesat the position of the smallest banding radius of the elongated regionand does not necessarily coincide with a cut edge of the slug to be cutout by the die button and the piercing and riveting section. Thissignifies that during the punching in process a bur, in particular aring-shaped burr, arises which causes the initially named problems.

In accordance with the invention this problem is prevented in that theworkpiece is supported during the punching in process in which the slugis cut out from the workpiece. This is achieved by the die plunger whichis pressed against the workpiece from a side of the workpiece oppositeto the fastener element which is to be punched in. In this way, thecreation of the depression which initially occurs in the customaryprocess is avoided. Only when the cutting process associated with thepunching in is finished, i.e. as soon as the slug has been substantiallycompletely separated from the workpiece is a movement of the die plungerpermitted. Basically, provision can be made that a movement of the dieplunger is first permitted after the completion of the cutting process.It is however also possible to provide a movement of the die plungerafter a delay time, i.e. when a certain portion of the piercing sectionof the fastener element has already passed through the workpiece. Thedirection of movement of the die plunger takes place during this in thedirection of movement of the fastener element.

It is also basically possible for the die plunger to be actively moved.A passive movement of the die plunger is however preferred. In thisconnection, one exploits the fact that forces vary which occurring thepunching in process. The predetermined pressing force can thus beselected such that a movement of the die plunger automatically firstarises in specific states, i.e. specifically first after the slug hasbeen punched out of the workpiece by the fastener element and the forcesacting between the die plunger and the fastener element exceed thepressing force.

Further embodiments of the method of the invention are set forth in thedescription, in the claims and in the accompanying drawings.

In accordance with one embodiment of the method, the die plunger ismovable in a direction parallel to a punching in movement of thefastener element. The pressing force, i.e. the force with which the dieplunger is biased towards the workpiece is in particular directedantiparallel to the punching in movement of the fastener element. Thepressing force can be selected in such a way that the die plunger isfirst moved when a fastener section of the fastener element is deformedby a shaping surface of the die plunger, i.e. the preset force is solarge that the die plunger is first set in motion when, as a result ofthe shaping of a section of the fastener element, for example a part ofthe piercing section acting as a rivet section, the forces which occurexceed the pressing force.

In accordance with an embodiment of the method the die plunger has araised portion which at the start of the punching in process projectsout of the plane which is defined by a rim of a recess of the diebutton. In other words, the die plunger supports the workpiece duringthe punching in not only in a plane which is defined by a workpiecesupport surface on which the workpiece lies during the process. Theraised portion of the die plunger ensures that a center part of the slugwhich is to be punched out is be pressed towards the fastener elementwhich is to be punched in. This facilitates the cutting during thepenetration of the piercing section into the workpiece. In particularthe die plunger includes a cutting edge which at the start of thepunching in process lies in a plane which is defined by the rim of therecess of the die button.

In accordance with one embodiment a movement of the die plunger oppositeto and/or in the direction of the pressing force is restricted by anabutment in order, on the one hand, to fix a well-defined position ofthe die plunger prior to the punching in of the fastener element and, onthe other hand, to ensure a controlled attachment of the fastenerelement to the workpiece by fixing a maximum deflection of the dieplunger.

The die plunger can have a shaping surface through which the piercingsection is at least regionally deformed radially outwardly. For example,the piercing section which also serves as the rivet section is beadedoutwardly by the shaping surface. The shaping surface can be conicallyand/or concavely shaped, at least regionally.

Provision can be made that during the punching in and attachment of thefastener element a depression is generated which at least partlyreceives a flange of the fastener element which contacts the workpiecein the end state. The depression is in particular at least so deep thatthe flange does not project in the axial direction out of thedepression.

The predetermined pressing force can be selected in dependence of theproperties of the workpiece in dependence on the properties of thefastener element and/or in dependence on a pressing force with which thefastener element is pressed by a pressing unit towards the workpiece, inorder to ensure that a reliable support of the workpiece is present inthe region of the slug which is to be cut out during the cutting processon the punching in of the fastener element.

Thus, a premature creation of a depression which stretches the materialof the workpiece and thus leads to the creation of swarf is avoided.

An adjustable biasing device can be associated with the die plunger withwhich the predetermined pressing force is adjustable.

The invention further relates to a die button for the punching in andattachment of the fastener element to a planar workpiece, in particularto a sheet metal part in accordance with a method in accordance with atleast one of the previously described embodiments, with the moveablyarranged die plunger being capable of being pressed by a pressing deviceagainst the workpiece and wherein a pressing force made available by thebiasing device is selected such that the die plunger first moves when aslug has been cut out by the piercing section of the fastener element.The direction of movement of the die plunger takes place during this inthe direction of movement of the fastener element.

In accordance with one embodiment the predetermined pressing forcegenerated by the biasing device is adjustable.

The biasing device in particular includes a spring. The biasing devicecan be designed both as a mechanical spring, such as a coil spring, andalso as a pneumatic spring, for example a pneumatically actuated pistonin cylinder arrangement or as a hydraulic spring, for example ahydraulically actuated piston in cylinder arrangement, or as a (movable)latch element. Moreover, the die plunger can be moved by an actuatorbetween the two preset positions which represents an equivalent of thebiasing device and which can for example be realized in an electricalpneumatic or hydraulic manner.

DRAWINGS

The present invention will now be described purely by way of example inthe following with reference to an advantageous embodiment of theinvention and to the accompanying drawings. There are shown:

FIGS. 1 to 10 a customary method for the punching in and attachment of afastener element to a planar workpiece and

FIGS. 11 to 22 an embodiment of the method of the present invention.

More precisely, there is shown:

FIG. 1 a bolt element which is punched into a planar sheet metal part12,

FIG. 2 the section characterized in broking lines in FIG. 1 in anenlarged representation,

FIG. 3 a representation similar to FIG. 1 but in a further advancedstate of the attachment of the bolt element,

FIG. 4 an enlarged representation of the central region of FIG. 3,

FIG. 5 the tearing of the sheet metal part in accordance with a furtheradvanced state of the attachment of the bolt element,

FIG. 6 an enlarged representation of the central region of FIG. 5,

FIG. 7 the creation of a burr in an advanced state of the attachment ofthe bolt element,

FIG. 8 an enlarged representation of the central region of FIG. 7,

FIG. 9 the completion of the connection of the bolt element to the sheetmetal part,

FIG. 10 an enlarged representation of the central region of FIG. 9,

FIG. 11 a representation of the start of the attachment of the boltelement to a sheet metal part using the method in accordance with theinvention and using the die button in accordance with the invention,

FIG. 12 an enlarged representation of the central region of FIG. 11,

FIG. 13 a representation of the method in accordance with the inventiondirectly after the formation of the piercing slug,

FIG. 14 an enlarged representation of the central region of FIG. 13,

FIG. 15 a representation similar to FIG. 13, but after the initialmovement of the die plunger,

FIG. 16 an enlarged representation of the central region of FIG. 15,

FIG. 17 a representation similar to FIG. 15 but after a further movementof the die plunger,

FIG. 18 an enlarged representation of the central region of FIG. 17,

FIG. 19 a representation similar to FIG. 17 but shortly before thecompletion of the formation of the rivet bead,

FIG. 20 an enlarged representation of the central region of FIG. 19,

FIG. 21 a representation similar to FIG. 19 but after the termination ofthe formation of the rivet bead and the attachment of the bolt elementto a sheet metal part,

FIG. 22 an enlarged representation of the central region of FIG. 21.

DETAILED DESCRIPTION

FIG. 1 shows a bolt element 10 which is to be punched into a planarsheet metal part 12 and secured to it. It will be understood thatinstead of the bolt element a nut element, a hollow rivet or anotherself-piercing element can be used.

The piercing section 14 of the bolt element 10 starts in the state shownin FIG. 1 to press the sheet metal part 12 into a recess 16 of the diebutton 18 whereby the formation of a depression sets in.

FIG. 2 shows the section shown in broken lines in FIG. 1 in an enlargedrepresentation. The die button 18 includes a die button jacket 20 mergesvia a rounded section 22 forming the rim of the recess 16 into a sheetmetal support surface 24 (see also FIG. 1). The sheet metal part 12 lieson the sheet metal support surface 24 during the punching in andattachment process.

At the end of the recess 16 remote from the sheet metal support surface24 the die button jacket 20 merges into a further rounded section 23which is in turn followed at the radially inner side by a die plunger 28surrounded by a ring groove 26.

It can be seen from FIGS. 3 and 4 that with increasing depth of thedepression a crack 30 forms in the sheet metal part 12 because thematerial here is particularly strongly extended by the piercing section14.

The crack 30 propagates—as shown in FIGS. 5 and 6—until it hascompletely passed through the sheet metal part 12. It can be seen thatthe crack 30 does not normally arise at the position where the piercingsection 14 in conjunction with the cutting edge 32 of the die plunger 28leads to a cutting through of the sheet metal part 12 and thus to thegeneration of a slug 34. Accordingly, a ring-like burr 36 arises which,during a beading over of the piercing section 14 acting as a rivetsection through the section of the ring groove 26, is jammed between thepiercing section 14 and a side of the sheet metal part 12 remote from aflange 38 of the bolt element 10 (see FIGS. 7 and 8).

In many cases the burr 36 remains between the sheet metal part 12 andthe surrounding piercing section 14. Often it is however forcedoutwardly by a further pressing action 10 against the die button 18which is shown in FIGS. 9 and 10. The burr 36 then either remains in therecess 16 of the die button 18, where it disturbs the subsequentpunching in processes, or it is likewise removed from the die button 16during the removal of the component assembly consisting of the sheetmetal part 11 and the bolt element 10 and then wanders through thetooling as a disturbing foreign body.

The method which is described with reference to FIGS. 11 and 22 reliablyprevents the creation of swarf 36.

As in the customary method a bolt element 10 can be used which isprovided with features 40 providing security against rotation at theflange 38 which is to be brought into contact with the sheet metal part12. The method of the invention can however be carried out with anydesired self-piercing elements.

As can be seen in FIG. 11, the die button 18′ of the invention has amovable die plunger 28′ which, at the start of the punching in andattachment process is pressed against the sheet metal part 12 from theside remote from the bolt element 10. The pressing force which actscoaxially to a longitudinal axis L of the bolt element 10 and of theplunger 28′ is made available by a spring 42. It will be understood thatinstead of the spring 42 other devices can be used which can generate apredetermined pressing force, such as for example hydraulic and/orpneumatic systems.

The sheet metal part is supported in a central region of the slug 34 tobe punched out by the die plunger 28′. In FIG. 12 it can be seen that araised portion 44 of the die plunger 28′ projects in the illustratedbasic state somewhat beyond the sheet metal contact surface 24 or therim of the recess 16 of the die button 18. The sheet metal part isthereby bent slightly in this region towards the bolt element 10 inorder to assist the cutting out of the slug 34 by the piercing section14 and the cutting edge 32′. The cutting edge 32′ lies in theillustrated state in the above-named plane.

As can be recognized in FIGS. 13 and 14 the pressing force madeavailable by the spring 42 is selected such that during the cutting outof the piercing slug 34 from the sheet metal part a movement of the dieplunger 28′ downwardly does not take place. The die plunger 28′ does thelatter deflect downwardly as is shown in FIGS. 15 and 16 only when ashaping of the piercing section 14 starts as a result of the shaping ofthe shaping surface 46 of the die plunger 28′ and therebycorrespondingly large forces act between the piercing section 14 and thedie plunger 28′.

In other words, the pressing force is so selected, taking accountamongst other things of the properties of the sheet metal part 12 and/orof the element 10, that the slug 34 which is created is supportedthroughout the entire piercing process. A movement of the die plunger28′ is first provided only after the slug 34 has been completely cut outof the sheet metal part 12. When this first starts depends, amongstother things, on the shape of the peripheral surface 46 and the pressingforce which is set. Provision can, for example, be made that thereshaping of the piercing section 14 first takes place comparativelylate and a plunger 28′ is not set in movement directly after thepunching out of the slug 34.

The start of the reshaping process of the piercing slug 14 is shown inFIGS. 15 and 16. As a result of the thereby enhanced coupling of thesection 14 and of the die plunger 28′ a larger proportion of thepressing force acting on the bolt element 10 is transmitted to theplunger 28′ so that the pressing force is overcome and the plunger 28′starts to deviate downwardly.

In FIGS. 17 and 18 a state is shown in which the die plunger 28′ hasreached a lower end position. I.e. it has reached an abutment position,so that the plunger 28′ no longer moves. The piercing section 14 hasbeen pierced over outwardly concave design of the reshaping surface 46in the lower parts. The concave section of the reshaping surface 46 thusforms a component comparable with the ring groove 26 which serves forthe beading over of the piercing section 14, which can also be seen inFIGS. 19 to 22. It will be understood that the design of the die buttonjacket 20′ of the die button 18′ can be matched to the respectivelypresent requirements. The same also applies to the rounded rim portion22′ which corresponds functionally to the rounded section 22 of the diebutton 18.

It can be seen in FIGS. 21 and 22 that the final end state resembles thestate shown in FIGS. 9 and 10 to the extent that the flange 38 isreceived in the axial direction by a depression formed by the punchingin and attaching process. The method of the invention thus serves forcrack avoidance and thus a burr—avoiding support of the slug 34 to becut out at the start of the method and simultaneously permits theformation of a depression which receives the flange 38. In accordancewith the invention it has been recognized that the pressing force of thesupporting die plunger 28′ must be selected such that a movement of thedie plunger 28′ is first permitted after the cutting out of the piercingslug 34.

REFERENCE NUMERAL LIST

-   10 bolt element-   12 sheet metal part-   14 piercing section-   16 recess-   18, 18′ die button-   20, 20′ die button jacket-   22, 23, 22′ rounded portion-   24 sheet metal contact surface-   26 ring groove-   28, 28′ die plunger-   30 crack-   32 cutting edge-   34 slug-   36 burr, swarf-   38 flange-   40 feature providing security against rotation-   42 spring-   44 raised portion-   46 reshaping surface-   L longitudinal axis

The invention claimed is:
 1. A die button for the punching in andfastening of a fastener element having a piercing section to a planarworkpiece, in particular a sheet metal part, the die button comprising:a jacket; a die plunger having a curved shaping surface engageable withthe piercing section for shaping of the piercing section, the dieplunger movably arranged in the jacket, the die plunger having a raisedportion projecting beyond a contact surface of the sheet metal part orbeyond a rim of a recess of the die button; and a biasing device forpressing the plunger against the workpiece when the workpiece issupported on the jacket with a pressing force made available by thebiasing device and selected such that the die plunger first moves when aslug has been detached from the workpiece by the piercing section of thefastener element and prior to completion of deformation of the fastenerelement.
 2. A die button in accordance with claim 1, wherein thepressing force generated by the biasing device is adjustable.
 3. A diebutton in accordance with claim 1, wherein the biasing device is formedfrom one of the devices of the group comprising a mechanical spring, acoil spring, a pneumatic spring, a hydraulic spring and a latch element.4. A die button in accordance with claim 1, wherein the movably arrangeddie plunger is movable by an actuator between an advanced position inwhich the die plunger supports the workpiece during the production ofthe piercing slug and a retracted position serving for the formation ofa rivet bead.
 5. A die button in accordance with claim 3, wherein thespring is a pneumatic spring and comprises a pneumatically actuatedpiston in cylinder arrangement.
 6. A die button in accordance with claim3, wherein the spring is a hydraulic spring and comprises ahydraulically actuated piston in cylinder arrangement.
 7. A die buttonin accordance with claim 4, wherein the actuator is one of a hydraulicactuator, a pneumatic actuator and an electrical actuator.